Flexible Connection and Release Device and Method

ABSTRACT

A flexible connection and release device which allows quick release while under load. The device comprises a first link; a second link; a first sling having one end attached to the first link; a second sling having one end attached to the second link; a tab attached to the first sling; a grommet contained in the tab; a curved length of a first flexible cable connected between two fixed points in the first sling on either side of the tab; a second flexible cable; and a pin or a third flexible cable. The links are connected together with multiple turns of the second flexible cable which forms a loop at its center. The curved length of the first flexible cable is passed through the loop in the second flexible cable and through the grommet so that a part of the first flexible cable protrudes from the grommet. The pin or third cable is passed through the protruding part of the first flexible cable to lock the first flexible cable in place.

STATEMENT OF GOVERNMENT INTEREST

The invention described herein may be manufactured and used by the U.S.Government for Governmental purposes without the payment of any royaltythereon.

BACKGROUND OF THE INVENTION

This invention relates, in general, to connection and release devicesand methods.

In the past, objects have been connected through load-bearing liftingslings that have to be released very quickly under certaincircumstances. Safety harnesses, workers' belts, parachute connections,and other like devices connect loads, some of which may weigh thousandsof pounds, and all of which may cause a safety hazard if such loadscannot be disconnected from an anchoring object, including a humanbeing. A parachutist or a workman may be connected to a heavy load, andmay crash to the ground or in deep water, if conditions permit. A simpledisconnect device for easy and quick release can save lives and preventa catastrophe.

SUMMARY OF THE INVENTION

It is therefore an object of this invention to connect two objects, loadbearing or otherwise, through a high strength flexible connection,having a mechanical advantage, which allows easy disconnect or releaseof these objects from each other even when the connection is subject tohigh tension forces.

This and other objects of the invention are achieved in one aspect by aflexible connection and release device which allows quick release whileunder load. The device comprises a first link; a second link; a firstsling having one end attached to the first link and another end attachedto a first object;

a second sling having one end attached to the second link and anotherend attached to a second object; a tab attached to the first sling; agrommet contained in the tab; a curved length of a first flexible cableconnected between two fixed points in the first sling on either side ofthe tab; a second flexible cable; and a locking means. The links areconnected together with multiple turns of the second flexible cablewhich forms a loop at its center. The curved length of the firstflexible cable is passed through the loop in the second flexible cableand through the grommet so that a part of the first flexible cableprotrudes from the grommet. The locking means is passed through theprotruding part of the first flexible cable to lock the first flexiblecable in place.

Another aspect of the invention involves a method of connecting a pairof slings together which allows quick release of the slings while underload, where the first sling has one end attached to a first link, thesecond sling has one end attached to a second link, a tab is attached tothe first sling, a grommet is contained in the tab, and a curved lengthof a first flexible cable is connected between two fixed points in thefirst sling on either side of the tab. The method comprises the steps ofplacing the links together; connecting the links together with multipleturns of a second flexible cable which forms a loop at its center;passing the curved length of the first flexible cable through the loopin the second flexible cable and through the grommet so that a part ofthe first flexible cable protrudes from the grommet; and locking thefirst flexible cable in place.

The invention can be employed for connecting barges to tow boats and tugboats to tow cables which have to be released very quickly under certaincircumstances. It can also be used to release airdrop loads fromaircraft and release parachutes from their payloads. It can be used torestrain cargo containers or payloads which require quick release. Thisinvention may also be used as a quick release on a workman's safetybelt.

Additional advantages and features will become apparent as the subjectinvention becomes better understood by reference to the followingdetailed description when considered in conjunction with theaccompanying drawings wherein:

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a first embodiment of the flexible connection and releasedevice in its disconnected state.

FIG. 2 shows the first embodiment of the flexible connection and releasedevice in its connected state.

FIG. 3 is a sectional side view taken along lines 3-3 of FIG. 2 in itsconnected state.

FIG. 4 is a sectional side view of a second embodiment of the flexibleconnection and release device in its connected state.

DETAILED DESCRIPTION

Referring now to the drawings wherein like characters refer to like orcorresponding parts, FIGS. 1-3 show an exemplary first embodiment of theinvention in the form of a pair of load-bearing lifting slings 11 and 13which are to be connected together. The slings are constructed of woventextile or wire forming a webbing sling for lifting loads. The firstsling 11 has one end attached to a link 15. The second sling 13 has oneend attached to a link 17. A tab 23 is attached to the first sling 11,and a grommet 25 is contained in the tab 23. A curved length of a firstflexible cable 21 is connected between two fixed points in the firstsling on either side of the tab 23.

The inventive method of connecting the slings together which allowsquick release of the slings while under load is illustrated ascomprising four steps.

In the first step (a), the links 15 and 17 are placed together. (SeeFIG. 1.)

In the second step (b), the links 15 and 17 are connected together withmultiple turns of a second flexible cable 19 which passes through theopenings in the links and which forms a loop 20 at its center. (See FIG.2.)

In the third step (c), the curved length of the first flexible cable 21is passed through the loop 20 in the second flexible cable 19 (See FIG.2) and through the grommet 25 so that a part of the first flexible cableprotrudes from the grommet. (See FIG. 3.)

In the fourth step (d), the first flexible cable 21 is locked in placeby passing a locking means 27 such as, for example, a pin or a cable,through the protruding part of the first flexible cable. (See FIG. 3.)

The slings may be quickly released along with a load being supported bythem in one further step (e), wherein the locking means 27 is withdrawnfrom the protruding part of the first flexible cable 21 to allow thefirst flexible cable to retract through the grommet 25, whereby thesecond flexible cable 19 begins to unwind from around the links 15 and17 with the first flexible cable 21 retracting through the loop in thesecond flexible cable 19 and the second flexible cable 19 unwindinguntil both of the links 15 and 17 separate.

The following is an explanation of how the invention works. As describedabove, and shown in FIGS. 1-3, the links 15 and 17 are placed togetherand the second flexible cable 19 is wrapped around the unattached sidesof the links 15 and 17 by passing it through the opening in the links.The wrapping continues until the proper number of wraps for a particularstrength has been achieved. This creates a double block and tacklepulley system controlled by the middle of the second flexible cable 19which has an 18:1 mechanical advantage. When the first flexible cable 21is engaged in the loop 20 in the second flexible cable 19, themechanical advantage becomes 36:1. These ratios are for a frictionlesssystem. The mechanical advantage can be further increased, in factdoubled, in a second embodiment shown in FIG. 4, just by incorporating acurved length of a third flexible cable 29 which is connected betweentwo fixed points in the first sling on either side of the tab 23, andwhich passes through an opening 22 formed by the curved length of thefirst flexible cable 21 and through the grommet 25. The assembly islocked by passing the locking means 27 through the protruding part ofthe third flexible cable 29. The mechanical advantage is now 72:1 for africtionless system. Additional flexible cables provide greatermechanical advantage.

It is obvious that many modifications and variations of the presentinvention are possible in light of the above teachings. It is thereforeto be understood that within the scope of the appended claims, theinvention may be practiced otherwise than as described.

1. A flexible connection and release device which allows quick releasewhile under load comprising: a first link; a second link; a first slinghaving one end attached to the first link; a second sling having one endattached to the second link; a tab attached to the first sling; agrommet contained in the tab; a curved length of a first flexible cableconnected between two fixed points in the first sling on either side ofthe tab; a second flexible cable; and locking means, wherein the linksare connected together with multiple turns of the second flexible cablewhich forms a loop at its center, the curved length of the firstflexible cable is passed through the loop in the second flexible cableand through the grommet so that a part of the first flexible cableprotrudes from the grommet; and the locking means is passed through theprotruding part of the first flexible cable to lock the first flexiblecable in place.
 2. The device recited in claim 1 wherein the lockingmeans includes a pin.
 3. The device recited in claim 1 wherein thelocking means includes a third cable. 4-6. (canceled)
 7. A method ofconnecting a pair of slings together which allows quick release of theslings while under load, where the first sling has one end attached toa: “first link, the second sling has one end attached to a second link,a tab is attached to the first sling, a grommet is contained in the tab,and a curved length of a first flexible cable is connected between twofixed points in the first sling on either side of the tab, the methodcomprising the steps of: placing the links together; connecting thelinks together with multiple turns of a second flexible cable whichforms a loop at its center; passing the curved length of the firstflexible cable through the loop in the second flexible cable and throughthe grommet so that a part of the first flexible cable protrudes fromthe grommet; and locking the first flexible cable in place.
 8. Themethod recited in claim 7 wherein the first flexible cable is locked inplace by passing a pin through the protruding part of the first flexiblecable.
 9. The method recited in claim 7 wherein the first flexible cableis locked in place by passing a third cable through the protruding partof the first flexible cable. 10-12. (canceled)